ALICE ITS2: overview and performance

TL;DR

The ALICE ITS2 upgrade features seven silicon pixel layers with low material budget and high resolution, significantly improving heavy-flavour and low-$p_{\rm T}$ particle reconstruction capabilities during LHC Run 3.

Contribution

This paper provides an overview of the ITS2 detector's design, calibration, and performance, highlighting improvements over the previous system and operational experience during Run 3.

Findings

Enhanced vertex reconstruction with low material budget

Stable operation at high interaction rates

Recorded extensive proton-proton and Pb--Pb collision data

Abstract

The new Inner Tracking System (ITS2) is instrumental for tracking and vertex reconstruction in the ALICE experiment. The new tracker consists of seven cylindrical layers equipped with silicon Monolithic Active Pixel Sensors (MAPS) with a pixel size of 27 by 29 $\rm{\mu}$m. The sensors are thinned down to a thickness of 50 $\mu$m and 100 $\mu$m for the three innermost layers and for the four outer layers, respectively. The material budget of the innermost layers is as low as 0.36% $X_{0}$/ layer compared to 1.14% $X_{0}$/ layer of the previous ITS1. In combination with a radius of 23 mm for the innermost layer and a position resolution of about 5 $\mu$m, the low material budget greatly enhances the reconstruction capabilities of heavy-flavour and low-$p_{\rm T}$ particles compared to Run 2. ITS2 has been in operation since the beginning of Run 3 and has already recorded more than 42 pb$^{-1}$ proton-proton events at $\sqrt{s}$ = 13.6 TeV and more than 2 nb$^{-1}$ Pb--Pb events at $ \sqrt{s_{ \rm{NN} }} $ = 5.36 TeV, operating stably during these operations at interaction rate up to 4 MHz in pp and about 50 kHz in Pb--Pb collisions. This contribution will review the detector performance during LHC Run 3 and give an overview on the calibration methods and running experience